CN112916092A - But broken rubble device repeatedly - Google Patents

Abstract

The invention relates to the field of relevant machinery for civil engineering, in particular to a stone crushing device capable of repeatedly crushing, which comprises a swinging mechanism, an assembly frame, an auxiliary adjusting mechanism, a material box, an interval adjusting mechanism and a gradient adjusting mechanism, wherein the assembly frame is rotatably arranged in a groove arranged on the swinging mechanism; this device can carry out preliminary breakage with bold stone grain, carries out a lot of breakage according to crushing effect again to realize the output of the stone grain of different specifications, the device can realize a lot of breakage simultaneously, has avoided the continuous transportation between the breaker of different models of stone grain, reduces the dust.

Description

But broken rubble device repeatedly

Technical Field

The invention relates to the field of relevant machinery for civil engineering, in particular to a stone crushing device capable of repeatedly crushing.

Background

The stone crusher among the prior art is only simply broken into the stone grain with large-scale stone, and to the stone grain of equidimension not, often need the stone crusher of multiple specification to process, just can realize the processing of the stone grain of different specifications size, and the process is loaded down with trivial details, and cost is with high costs, still can additionally produce a large amount of dusts simultaneously, the polluted environment with harm workman is healthy.

Disclosure of Invention

The invention mainly solves the technical problem of providing a stone crushing device capable of repeatedly crushing, which can primarily crush large stone particles and then crush the large stone particles for multiple times according to the crushing effect, thereby realizing the output of the stone particles with different specifications, and meanwhile, the device can realize multiple crushing, thereby avoiding the continuous transportation of the stone particles among crushers with different models and reducing dust.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a but broken rubble device repeatedly, includes swing mechanism, equipment frame, supplementary guiding mechanism, workbin, interval guiding mechanism and slope guiding mechanism, equipment frame swivelling joint in the recess that sets up on swing mechanism, the both ends of equipment frame fixed mounting respectively has the workbin, supplementary guiding mechanism fixed mounting is on the equipment frame, interval guiding mechanism fixed mounting is on the equipment frame, slope guiding mechanism fixed mounting is on interval guiding mechanism.

As a further optimization of the technical scheme, the swinging mechanism of the repeatedly-crushing stone crushing device comprises a bar-shaped base, a first pushing slider, a first lifting threaded rod, a first steering gear, a bottom motor, a first chain wheel, a transmission chain, a second pushing slider, a second lifting threaded rod and a second chain wheel, wherein the first pushing slider is slidably arranged in a groove arranged at one end of the bar-shaped base, the second pushing slider is slidably arranged in a groove arranged at the other end of the bar-shaped base, the first lifting threaded rod is in threaded connection with the first pushing slider, the other end of the first lifting threaded rod is fixedly arranged on the steering gear, the steering gear is rotatably arranged in a groove arranged on the bar-shaped base, the steering gear is meshed with the first chain wheel, the first chain wheel is fixedly arranged at the output end of the bottom motor, the bottom motor is fixedly arranged on the bar-shaped base, the first chain wheel is meshed with the transmission, the transmission chain is meshed with a second chain wheel, the second chain wheel is rotatably installed in a groove formed in the strip-shaped base, the other side of the second chain wheel is fixedly installed on a second lifting threaded rod, and the second lifting threaded rod is in threaded connection with the second pushing slider.

As a further optimization of the technical solution, the assembly frame of the stone crushing device capable of repeatedly crushing of the present invention comprises a central shaft member, a middle plate, a cover plate frame, and a U-shaped mounting frame, wherein the central shaft member is fixedly mounted on the middle plate, the middle plate is fixedly connected with the cover plate frame, the U-shaped mounting frame is fixedly mounted on the cover plate frame, and the bar-shaped base is rotatably mounted on the central shaft member.

As a further optimization of the technical scheme, the auxiliary adjusting mechanism of the stone crushing device capable of repeatedly crushing comprises an auxiliary motor, a motor gear, a middle gear ring, a driving shaft lever, a first side chain wheel, a second side fixing plate, a threaded short rod and a sliding sealing plate, wherein the auxiliary motor is fixedly arranged in a groove arranged on a central shaft part, the motor gear is fixedly arranged at the output end of the auxiliary motor, the motor gear is meshed with the middle gear ring, the middle gear ring is fixedly arranged on the driving shaft lever, the driving shaft lever is rotatably arranged in the groove arranged on the central shaft part, two ends of the driving shaft lever are respectively and fixedly provided with a first side chain wheel, the first side chain wheel is meshed with the side chain, the side chain wheel is meshed with the second side chain wheel, the second side chain wheel is rotatably arranged in the groove arranged on the side fixing plate, the side fixing plate is fixedly arranged on the, the side fixing plate is in threaded connection with the threaded short rod, the threaded short rod is fixedly installed on the sliding sealing plate, and the sliding sealing plate is installed in a groove formed in the middle plate in a sliding mode.

As a further optimization of the technical scheme, the interval adjusting mechanism of the stone crushing device capable of repeatedly crushing comprises a main mounting frame, a driving motor, a driving gear, a synchronous chain wheel, a threaded rod for displacement, a synchronous chain, a motor for rotation, a rotation limiting shaft and a round hole square piece, wherein the round hole square piece is slidably mounted in a groove arranged on the U-shaped mounting frame, the main mounting frame is fixedly mounted on the round hole square piece, the motor for rotation is fixedly mounted on the main mounting frame, the output end of the motor for rotation is fixedly mounted with the rotation limiting shaft, the rotation limiting shaft is rotatably mounted in a through hole arranged on the main mounting frame, the threaded rod for displacement is fixedly mounted at two ends of the main mounting frame, the threaded rod for displacement is in threaded connection with the synchronous chain wheel, the synchronous chain wheel is meshed with the synchronous chain wheel, one synchronous chain wheel is meshed with the driving gear, and the driving gear is fixedly mounted at the output end of the, the synchronous chain wheel is rotatably arranged in a groove arranged on the U-shaped mounting frame, and the driving motor is fixedly arranged on the U-shaped mounting frame.

As a further optimization of the technical scheme, the slope adjusting mechanism of the repeatedly-crushing stone crushing device comprises a circular rotating piece, an adjusting sliding plate, an adjusting chain wheel I, an adjusting chain, an adjusting motor, an adjusting chain wheel II, an adjusting plate, a crushing plate, an extrusion cam, a cam shaft, a transmission gear ring, a transmission gear, a motor for crushing, an adjusting threaded rod and a balance clamping plate, wherein the circular rotating piece is rotatably arranged in a groove arranged on a circular hole square piece, the adjusting sliding plate is slidably arranged in the groove arranged on the circular rotating piece, the adjusting threaded rod is fixedly arranged on the adjusting chain wheel I, the other adjusting threaded rod is fixedly arranged on the adjusting chain wheel II, the two adjusting threaded rods are rotatably arranged in the groove arranged on the adjusting sliding plate, the adjusting chain wheel I is in threaded connection with the adjusting chain, the adjusting chain is in threaded connection with the adjusting chain wheel II, the adjusting chain wheel II is fixedly arranged at the, the adjusting mechanism comprises an adjusting motor, an adjusting sliding plate, a balance clamping plate, a regulating threaded rod, a regulating plate, a grinding plate ring, a transmission gear ring, a cam shaft, an extrusion cam, a grinding plate and a transmission gear ring, wherein the adjusting motor is fixedly installed on the adjusting sliding plate, the balance clamping plate is slidably installed in a groove formed in the regulating plate, the regulating plate is in threaded connection with the regulating threaded rod, the regulating plate is hinged to one end of the grinding plate, the other end of the grinding plate is slidably installed in a circular groove formed in a sliding sealing plate, the grinding motor is fixedly installed in a groove formed in the circular rotating member, the transmission gear is fixedly installed at the output end of the grinding motor and meshed with the transmission gear ring, the transmission gear ring is fixedly installed on the cam shaft.

The stone crushing device capable of repeatedly crushing has the beneficial effects that:

1. the broken stone is placed in the material box on one side, the bottom motor is started, the bottom motor drives the first chain wheel to rotate, the first chain wheel rotates to drive the steering gear to rotate, the steering gear drives the lifting threaded rod to rotate, meanwhile, the first chain wheel drives the second chain wheel to rotate through the transmission chain, the second chain wheel drives the lifting threaded rod to rotate, the first lifting threaded rod and the second lifting threaded rod rotate in opposite directions, the joint of the strip-shaped base and the central shaft piece serves as a central shaft point, the first slider is pushed to ascend, the second slider is pushed to descend, the material box filled with the broken stone is made to ascend, and the material box on the other side descends.

2. The crushed stone enters into the bin with the other side empty, the auxiliary motor is started, the auxiliary motor drives the middle gear ring to rotate through the motor gear, the middle gear ring rotates through the motor gear, the middle gear ring drives the side chain wheel to rotate through the driving shaft rod, the side chain wheel rotates through the side chain belt, the side chain wheel is connected with the threaded short rod in a threaded manner, the threaded short rod moves and drives the sliding sealing plate to move outwards, and a space is reserved for the integral rotation of the gradient adjusting mechanism, then starting the motor for rotation, driving the rotation limiting shaft to rotate by the motor for rotation, and driving the circular rotating piece to rotate by the rotation limiting shaft, so that the slope adjusting mechanism integrally rotates; and at the moment, the bottom motor is started again, the first pushing sliding piece descends, the second pushing sliding piece ascends, and crushed gravels slide to the gradient adjusting mechanism again to be crushed again for secondary crushing.

3. The start drives the motor, it is rotatory to drive the motor through driving the gear drive synchronous sprocket, synchronous sprocket and threaded rod threaded connection for the displacement, the threaded rod removes for the displacement this moment, make main mounting bracket synchronous movement, main mounting bracket drives the square piece synchronous movement of round hole, make the square piece of round hole slide on the U-shaped mounting bracket, the square piece of round hole removes and drives slope guiding mechanism moving as a whole, the interval between crushing board and the intermediate lamella has been changed, different intervals can make the crushed stone piece of different diameters pass through, thereby realize the purpose of the size of the broken back stone grain of adjustment.

4. The adjusting motor is started, the adjusting motor drives the adjusting chain wheel to rotate, the adjusting chain wheel drives the adjusting chain wheel to rotate through the adjusting chain, so that the adjusting threaded rod rotates, the adjusting rod rotates to move the adjusting plate, the adjusting plate moves to increase the gradient of inclination of the crushing plate, and when the crushing plate can adapt to large-diameter crushed stones, the crushed stones are smaller.

5. Through interval guiding mechanism and slope guiding mechanism's adjustment, the ascending and descending in turn of cooperation both ends workbin realizes that the rubble is continuous in this device carries out the breakage of different specification stone grain, reaches the output of the stone grain of different specification sizes, has also avoided the continuous dust of transporting the production of rubble simultaneously.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of a rock breaking device capable of being repeatedly broken according to the present invention.

Fig. 2 is a partial perspective view of a lithotripter device of the present invention.

Fig. 3 is a perspective view of an assembly frame 2 and an auxiliary adjusting mechanism 3 of a rock breaking device for repeated crushing according to the present invention.

Fig. 4 is a schematic perspective view of the swing mechanism 1 and the assembly frame 2 of the rock breaking device of the present invention.

Fig. 5 is a schematic perspective view of the auxiliary adjusting mechanism 3, the spacing adjusting mechanism 5 and the gradient adjusting mechanism 6 of the stone crushing device of the present invention.

Fig. 6 is a schematic perspective view of a swing mechanism 1 of a rock breaking device capable of repeated crushing according to the present invention.

Fig. 7 is a schematic cross-sectional structure of a swing mechanism 1 of a rock breaking device capable of repeated crushing according to the invention.

Fig. 8 is a perspective view of an assembly frame 2 of a rock breaking device for repeated crushing according to the present invention.

Fig. 9 is a perspective view of the bin 4 of a device for repeatedly breaking stones according to the invention.

Fig. 10 is a perspective view of an auxiliary adjusting mechanism 3 of a rock breaking device for repeated crushing according to the present invention.

Fig. 11 is a partial cross-sectional view of an auxiliary adjustment mechanism 3 of a fragmenting stone apparatus according to the invention.

Fig. 12 is a schematic perspective view of the spacing adjustment mechanism 5 and the gradient adjustment mechanism 6 of the rock breaking device for repeated crushing according to the present invention.

Fig. 13 is a schematic perspective view of an assembly frame 2, a spacing adjustment mechanism 5 and a gradient adjustment mechanism 6 of a rock breaking apparatus for repeated crushing according to the present invention.

Fig. 14 is a perspective view of the assembly frame 2 and the spacing adjustment mechanism 5 of the rock breaking device according to the present invention.

Fig. 15 is a perspective view of the spacing adjustment mechanism 5 of the rock breaking device of the present invention.

Fig. 16 is a schematic cross-sectional view of the spacing adjustment mechanism 5 of the rock breaking device of the present invention.

Fig. 17 is a perspective view of a slope adjusting mechanism 6 of a rock breaking apparatus for repeated crushing according to the present invention.

Fig. 18 is a supplementary perspective view of the slope adjusting mechanism 6 of the rock breaking apparatus for repeated crushing according to the present invention.

Fig. 19 is a cross-sectional view schematically illustrating a gradient adjustment mechanism 6 of a rock breaking apparatus according to the present invention.

Fig. 20 is a supplementary perspective view of the slope adjusting mechanism 6 of the rock breaking apparatus for repeated crushing according to the present invention.

In the figure: a swing mechanism 1; a strip-shaped base 1-1; pushing the slider one 1-2; 1-3 of a lifting threaded rod; a steering gear 1-4; a bottom motor 1-5; a first sprocket 1-6; 1-7 of a transmission chain; pushing the second slide piece 1-8; 1-9 parts of a second lifting threaded rod; a second sprocket 1-10; an assembly frame 2; a central shaft member 2-1; an intermediate plate 2-2; a cover plate frame 2-3; a U-shaped mounting frame 2-4; an auxiliary adjusting mechanism 3; an auxiliary motor 3-1; a motor gear 3-2; 3-3 of an intermediate gear ring; driving the shaft lever 3-4; 3-5 parts of a side chain wheel I; 3-6 parts of side chains; 3-7 of a side chain wheel II; 3-8 parts of a side fixing plate; 3-9 parts of a threaded short rod; sliding seal plates 3-10; a material box 4; a spacing adjustment mechanism 5; a main mounting frame 5-1; driving a motor 5-2; driving a gear 5-3; 5-4 parts of a synchronous chain wheel; 5-5 parts of a displacement threaded rod; 5-6 parts of a synchronous chain; 5-7 of a motor for rotation; rotating the limiting shaft by 5-8; 5-9 parts of round hole square pieces; a gradient adjusting mechanism 6; a circular rotating member 6-1; adjusting the sliding plate 6-2; 6-3 of an adjusting chain wheel I; 6-4 of an adjusting chain; 6-5 of an adjusting motor; 6-6 parts of a second adjusting chain wheel; 6-7 of an adjusting plate; 6-8 parts of a crushing plate; 6-9 of an extrusion cam; 6-10 parts of a camshaft; 6-11 parts of a transmission gear ring; transmission gears 6-12; a motor for grinding 6-13; adjusting the threaded rod 6-14; balance splints 6-15.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 20, and a stone crushing device capable of repeatedly crushing includes a swing mechanism 1, an assembly frame 2, an auxiliary adjustment mechanism 3, a work bin 4, a spacing adjustment mechanism 5, and a gradient adjustment mechanism 6, wherein the assembly frame 2 is rotatably mounted in a groove formed in the swing mechanism 1, the work bin 4 is respectively and fixedly mounted at two ends of the assembly frame 2, the auxiliary adjustment mechanism 3 is fixedly mounted on the assembly frame 2, the spacing adjustment mechanism 5 is fixedly mounted on the assembly frame 2, and the gradient adjustment mechanism 6 is fixedly mounted on the spacing adjustment mechanism 5.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-20, and the embodiment will be further described, wherein the swing mechanism 1 includes a bar-shaped base 1-1, a first pushing slider 1-2, a first lifting threaded rod 1-3, a first steering gear 1-4, a bottom motor 1-5, a first sprocket 1-6, a transmission chain 1-7, a second pushing slider 1-8, a second lifting threaded rod 1-9, and a second sprocket 1-10, the first pushing slider 1-2 is slidably mounted in a groove provided on one end of the bar-shaped base 1-1, the second pushing slider 1-8 is slidably mounted in a groove provided on the other end of the bar-shaped base 1-1, the first lifting threaded rod 1-3 is connected with the first pushing slider 1-2 by screw threads, the other end of the first lifting threaded rod 1-3 is fixedly mounted on the first steering gear 1-4, the steering gear 1-4 is rotatably arranged in a groove arranged on the bar-shaped base 1-1, the steering gear 1-4 is meshed with a first chain wheel 1-6, the first chain wheel 1-6 is fixedly arranged at the output end of a bottom motor 1-5, the bottom motor 1-5 is fixedly arranged on the bar-shaped base 1-1, the first chain wheel 1-6 is meshed with a transmission chain 1-7, the transmission chain 1-7 is meshed with a second chain wheel 1-10, the second chain wheel 1-10 is rotatably arranged in a groove arranged on the bar-shaped base 1-1, the other side of the second chain wheel 1-10 is fixedly arranged on a lifting threaded rod II 1-9, and the lifting threaded rod II 1-9 is in threaded connection with a pushing slider II 1-8.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 20, and the present embodiment further describes an embodiment two, where the assembly frame 2 includes a central shaft 2-1, an intermediate plate 2-2, a panel covering frame 2-3, and a U-shaped mounting frame 2-4, the central shaft 2-1 is fixedly mounted on the intermediate plate 2-2, the intermediate plate 2-2 is fixedly connected with the panel covering frame 2-3, the panel covering frame 2-3 is fixedly mounted with the U-shaped mounting frame 2-4, and the strip base 1-1 is rotatably mounted on the central shaft 2-1.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-20, wherein the auxiliary adjustment mechanism 3 includes an auxiliary motor 3-1, a motor gear 3-2, a middle gear ring 3-3, a driving shaft rod 3-4, a side chain wheel 3-5, a side chain bar 3-6, a side chain wheel 3-7, a side fixing plate 3-8, a threaded short rod 3-9, and a sliding seal plate 3-10, the auxiliary motor 3-1 is fixedly mounted in a groove formed on the central shaft member 2-1, the motor gear 3-2 is fixedly mounted at an output end of the auxiliary motor 3-1, the motor gear 3-2 is engaged with the middle gear ring 3-3, the middle gear ring 3-3 is fixedly mounted on the driving shaft rod 3-4, the driving shaft lever 3-4 is rotatably installed in a groove arranged on the central shaft element 2-1, two ends of the driving shaft lever 3-4 are respectively and fixedly provided with a side chain wheel I3-5, the side chain wheel I3-5 is meshed with a side chain 3-6, a side chain bar 3-6 is meshed with a side chain wheel II 3-7, the side chain wheel II 3-7 is rotatably installed in a groove arranged on a side fixing plate 3-8, the side fixing plate 3-8 is fixedly installed on the middle plate 2-2, the side fixing plate 3-8 is in threaded connection with a threaded short rod 3-9, the threaded short rod 3-9 is fixedly installed on a sliding sealing plate 3-10, and the sliding sealing plate 3-10 is slidably installed in a groove arranged on the middle plate 2-2.

The fifth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-20, wherein the distance adjusting mechanism 5 includes a main mounting frame 5-1, a driving motor 5-2, a driving gear 5-3, a synchronous sprocket 5-4, a displacement threaded rod 5-5, a synchronous chain 5-6, a rotation motor 5-7, a rotation limiting shaft 5-8, and a round hole square member 5-9, the round hole square member 5-9 is slidably mounted in a groove formed in the U-shaped mounting frame 2-4, the main mounting frame 5-1 is fixedly mounted on the round hole square member 5-9, the rotation motor 5-7 is fixedly mounted on the main mounting frame 5-1, the rotation limiting shaft 5-8 is fixedly mounted at an output end of the rotation motor 5-7, the rotary limiting shaft 5-8 is rotatably installed in a through hole formed in the main mounting frame 5-1, two ends of the main mounting frame 5-1 are fixedly provided with a displacement threaded rod 5-5, the displacement threaded rod 5-5 is in threaded connection with a synchronous chain wheel 5-4, the synchronous chain wheel 5-4 is meshed with a synchronous chain 5-6, one synchronous chain wheel 5-4 is meshed with a driving gear 5-3, the driving gear 5-3 is fixedly installed at the output end of the driving motor 5-2, the synchronous chain wheel 5-4 is rotatably installed in a groove formed in the U-shaped mounting frame 2-4, and the driving motor 5-2 is fixedly installed on the U-shaped mounting frame 2-4.

The sixth specific implementation mode:

the fourth or fifth embodiment is further described with reference to fig. 1-20, wherein the gradient adjusting mechanism 6 comprises a circular rotating member 6-1, an adjusting sliding plate 6-2, an adjusting chain wheel 6-3, an adjusting chain 6-4, an adjusting motor 6-5, an adjusting chain wheel 6-6, an adjusting plate 6-7, a crushing plate 6-8, an extrusion cam 6-9, a cam shaft 6-10, a transmission gear ring 6-11, a transmission gear 6-12, a crushing motor 6-13, an adjusting threaded rod 6-14 and a balance clamping plate 6-15, the circular rotating member 6-1 is rotatably installed in a groove arranged on the circular hole square member 5-9, the adjusting sliding plate 6-2 is slidably installed in a groove arranged on the circular rotating member 6-1, an adjusting threaded rod 6-14 is fixedly installed on the adjusting chain wheel I6-3, another adjusting threaded rod 6-14 is fixedly installed on the adjusting chain wheel II 6-6, the two adjusting threaded rods 6-14 are both rotatably installed in a groove arranged on the adjusting sliding plate 6-2, the adjusting chain wheel I6-3 is in threaded connection with an adjusting chain 6-4, the adjusting chain 6-4 is in threaded connection with the adjusting chain wheel II 6-6, the adjusting chain wheel II 6-6 is fixedly installed at the output end of an adjusting motor 6-5, the adjusting motor 6-5 is fixedly installed on the adjusting sliding plate 6-2, a balance clamping plate 6-15 is fixedly installed on the adjusting sliding plate 6-2, the balance clamping plate 6-15 is slidably installed in a groove arranged on the adjusting plate 6-7, and the adjusting plate 6-7 is in threaded connection with the adjusting threaded rod 6-14, an adjusting plate 6-7 is hinged with one end of a grinding plate 6-8, the other end of the grinding plate 6-8 is slidably arranged in a circular groove 3-10-1 arranged on a sliding sealing plate 3-10, a grinding motor 6-13 is fixedly arranged in a groove arranged on a circular rotating member 6-1, the output end of the grinding motor 6-13 is fixedly provided with a transmission gear 6-12, the transmission gear 6-12 is meshed with a transmission gear ring 6-11, the transmission gear ring 6-11 is fixedly arranged on a cam shaft 6-10, two ends of the cam shaft 6-10 are respectively and fixedly provided with an extrusion cam 6-9, the extrusion cam 6-9 is contacted with the grinding plate 6-8, and the transmission gear ring 6-11 is rotatably arranged in a groove arranged on the circular rotating member 6-1.

The invention relates to a stone crushing device capable of being repeatedly crushed, which has the working principle that:

placing crushed stones in a bin 4 at one side, starting a bottom motor 1-5, driving a first chain wheel 1-6 to rotate by the bottom motor 1-5, driving a steering gear 1-4 to rotate by the first chain wheel 1-6, driving a lifting threaded rod 1-3 to rotate by the steering gear 1-4, driving a second chain wheel 1-10 to rotate by the first chain wheel 1-6 through a transmission chain 1-7, driving a lifting threaded rod two 1-9 to rotate by the second chain wheel 1-10, driving the lifting threaded rod 1-3 and the lifting threaded rod two 1-9 to rotate in opposite directions, taking the joint of a strip-shaped base 1-1 and a central shaft member 2-1 as a central shaft point, driving a slider 1-2 to ascend, driving a slider two 1-8 to descend, thereby lifting the bin 4 filled with the crushed stones, the bin 4 on the other side is lowered.

Along with the inclination of the device, the crushed stone slides to the material box 4 at the other side under the action of gravity, the crushed stone is accumulated between the crushing plate 6-8 and the middle plate 2-2, the motor 6-13 for crushing is started, the motor 6-13 for crushing drives the transmission gear 6-12 to rotate, the transmission gear 6-12 drives the transmission gear ring 6-11 to rotate, the transmission gear ring 6-11 drives the extrusion cam 6-9 to rotate through the cam shaft 6-10, the extrusion cam 6-9 rotates to extrude the crushing plate 6-8 to swing, the crushing plate 6-8 swings to extrude the crushed stone, thereby achieving the purpose of crushing the crushed stone, the crushed small crushed stone enters the material box 4 at the other side, the motor 3-1 for auxiliary is started, the motor 3-1 for auxiliary drives the middle gear ring 3-3 to rotate through the motor gear 3-2, the middle gear ring 3-3 drives a first side chain wheel 3-5 to rotate through a driving shaft rod 3-4, the first side chain wheel 3-5 drives a second side chain wheel 3-7 to rotate through a side chain 3-6, the second side chain wheel 3-7 is in threaded connection with a short threaded rod 3-9, at the moment, the short threaded rod 3-9 moves and drives a sliding sealing plate 3-10 to move outwards, a space is reserved for the integral rotation of the gradient adjusting mechanism 6, then a motor 5-7 for rotation is started, a motor 5-7 for rotation drives a limiting shaft 5-8 for rotation to rotate, and the limiting shaft 5-8 for rotation drives a circular rotating piece 6-1 to rotate, so that the gradient adjusting mechanism 6 rotates integrally; at the moment, the bottom motor 1-5 is started again, the first pushing slide piece 1-2 is made to descend, the second pushing slide piece 1-8 is made to ascend, and crushed gravels slide to the slope adjusting mechanism 6 again for secondary crushing.

The driving motor 5-2 is started, the driving motor 5-2 drives the synchronous chain wheel 5-4 to rotate through the driving gear 5-3, the synchronous chain wheel 5-4 is in threaded connection with the displacement threaded rod 5-5, at the moment, the displacement threaded rod 5-5 moves to enable the main mounting frame 5-1 to move synchronously, the main mounting frame 5-1 drives the round hole square part 5-9 to move synchronously, the round hole square part 5-9 slides on the U-shaped mounting frame 2-4, the round hole square part 5-9 moves to drive the gradient adjusting mechanism 6 to move integrally, the distance between the crushing plate 6-8 and the middle plate 2-2 is changed, crushed stones with different diameters can pass through the different distances, and the purpose of adjusting the size of the crushed stones is achieved.

The adjusting motor 6-5 is started, the adjusting motor 6-5 drives the adjusting chain wheel II 6-6 to rotate, the adjusting chain wheel II 6-6 drives the adjusting chain wheel I6-3 to rotate through the adjusting chain 6-4, so that the adjusting threaded rod 6-14 rotates, the adjusting threaded rod 6-14 rotates to enable the adjusting plate 6-7 to move, the adjusting plate 6-7 moves to increase the inclination of the crushing plate 6-8, and the crushing plate 6-8 can be suitable for crushing large-diameter gravels and crushing smaller gravels.

Through the adjustment of interval guiding mechanism 5 and slope guiding mechanism 6, the alternative lift of cooperation both ends workbin 4 realizes that the rubble is continuous in this device carries out the breakage of different specification stone grain, reaches the output of the stone grain of different specification sizes, has also avoided the rubble to constantly transport the dust that produces simultaneously.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a but broken rubble device repeatedly, includes swing mechanism (1), equipment frame (2), supplementary guiding mechanism (3), workbin (4), interval guiding mechanism (5) and slope guiding mechanism (6), its characterized in that: the assembling frame (2) is rotatably installed in a groove formed in the swing mechanism (1), the two ends of the assembling frame (2) are respectively and fixedly provided with a material box (4), the auxiliary adjusting mechanism (3) is fixedly installed on the assembling frame (2), the interval adjusting mechanism (5) is fixedly installed on the assembling frame (2), and the gradient adjusting mechanism (6) is fixedly installed on the interval adjusting mechanism (5).

2. A recrushable rock breaking apparatus according to claim 1, wherein: the swing mechanism (1) comprises a bar-shaped base (1-1), a first pushing slider (1-2), a first lifting threaded rod (1-3), a gear (1-4) for steering, a bottom motor (1-5), a first chain wheel (1-6), a transmission chain (1-7), a second pushing slider (1-8), a second lifting threaded rod (1-9) and a second chain wheel (1-10), wherein the first pushing slider (1-2) is slidably arranged in a groove arranged at one end of the bar-shaped base (1-1), the second pushing slider (1-8) is slidably arranged in a groove arranged at the other end of the bar-shaped base (1-1), the first lifting threaded rod (1-3) is in threaded connection with the first pushing slider (1-2), and the other end of the first lifting threaded rod (1-3) is fixedly arranged on the gear (1-4) for steering, the steering gear (1-4) is rotatably installed in a groove formed in the bar-shaped base (1-1), the steering gear (1-4) is meshed with a first chain wheel (1-6), the first chain wheel (1-6) is fixedly installed at the output end of a bottom motor (1-5), the bottom motor (1-5) is fixedly installed on the bar-shaped base (1-1), the first chain wheel (1-6) is meshed with a transmission chain (1-7), the transmission chain (1-7) is meshed with a second chain wheel (1-10), the second chain wheel (1-10) is rotatably installed in a groove formed in the bar-shaped base (1-1), the other side of the second chain wheel (1-10) is fixedly installed on a lifting threaded rod II (1-9), and the lifting threaded rod II (1-9) is in threaded connection with a pushing slider II (1-8).

3. A recrushable rock breaking apparatus according to claim 2, wherein: the assembling frame (2) comprises a central shaft element (2-1), an intermediate plate (2-2), a panel sealing frame (2-3) and a U-shaped mounting frame (2-4), wherein the central shaft element (2-1) is fixedly mounted on the intermediate plate (2-2), the intermediate plate (2-2) is fixedly connected with the panel sealing frame (2-3), the U-shaped mounting frame (2-4) is fixedly mounted on the panel sealing frame (2-3), and a bar-shaped base (1-1) is rotatably mounted on the central shaft element (2-1).

4. A recrushable rock breaking apparatus according to claim 3, wherein: the auxiliary adjusting mechanism (3) comprises an auxiliary motor (3-1), a motor gear (3-2), a middle gear ring (3-3), a driving shaft lever (3-4), a side chain wheel I (3-5), a side chain (3-6), a side chain wheel II (3-7), a side fixing plate (3-8), a threaded short rod (3-9) and a sliding sealing plate (3-10), wherein the auxiliary motor (3-1) is fixedly arranged in a groove arranged on the central shaft member (2-1), the motor gear (3-2) is fixedly arranged at the output end of the auxiliary motor (3-1), the motor gear (3-2) is meshed with the middle gear ring (3-3), the middle gear ring (3-3) is fixedly arranged on the driving shaft lever (3-4), the driving shaft lever (3-4) is rotatably installed in a groove formed in the central shaft element (2-1), two ends of the driving shaft lever (3-4) are respectively and fixedly provided with a side chain wheel I (3-5), a side chain wheel I (3-5) is meshed with a side chain (3-6), the side chain (3-6) is meshed with a side chain wheel II (3-7), the side chain wheel II (3-7) is rotatably installed in a groove formed in a side fixing plate (3-8), the side fixing plate (3-8) is fixedly installed on the middle plate (2-2), the side fixing plate (3-8) is in threaded connection with a threaded short rod (3-9), the threaded short rod (3-9) is fixedly installed on a sliding sealing plate (3-10), and the sliding sealing plate (3-10) is slidably installed in a groove formed in the middle plate (2-2).

5. A recrushable rock breaking apparatus according to claim 3, wherein: the spacing adjusting mechanism (5) comprises a main mounting frame (5-1), a driving motor (5-2), a driving gear (5-3), a synchronous chain wheel (5-4), a threaded rod (5-5) for displacement, a synchronous chain (5-6), a rotating motor (5-7), a rotating limiting shaft (5-8) and a round hole square part (5-9), wherein the round hole square part (5-9) is slidably mounted in a groove formed in the U-shaped mounting frame (2-4), the main mounting frame (5-1) is fixedly mounted on the round hole square part (5-9), the rotating motor (5-7) is fixedly mounted on the main mounting frame (5-1), and the rotating limiting shaft (5-8) is fixedly mounted at the output end of the rotating motor (5-7), the rotary limiting shaft (5-8) is rotatably arranged in a through hole arranged on the main mounting frame (5-1), two ends of the main mounting frame (5-1) are respectively and fixedly provided with a displacement threaded rod (5-5), the displacement threaded rod (5-5) is in threaded connection with the synchronous chain wheel (5-4), the synchronous chain wheel (5-4) is meshed with the synchronous chain (5-6), one of the synchronous chain wheels (5-4) is meshed with the driving gear (5-3), the driving gear (5-3) is fixedly installed at the output end of the driving motor (5-2), the synchronous chain wheel (5-4) is rotatably installed in a groove formed in the U-shaped mounting frame (2-4), and the driving motor (5-2) is fixedly installed on the U-shaped mounting frame (2-4).

6. A fragmentable stone breaking apparatus as claimed in claim 4 or 5, wherein: the gradient adjusting mechanism (6) comprises a circular rotating piece (6-1), an adjusting sliding plate (6-2), an adjusting chain wheel I (6-3), an adjusting chain (6-4), an adjusting motor (6-5), an adjusting chain wheel II (6-6), an adjusting plate (6-7), a crushing plate (6-8), an extrusion cam (6-9), a cam shaft (6-10), a transmission gear ring (6-11), a transmission gear (6-12), a crushing motor (6-13), an adjusting threaded rod (6-14) and a balance clamping plate (6-15), wherein the circular rotating piece (6-1) is rotatably arranged in a groove arranged on the circular hole square piece (5-9), the adjusting sliding plate (6-2) is slidably arranged in a groove arranged on the circular rotating piece (6-1), an adjusting threaded rod (6-14) is fixedly installed on the adjusting chain wheel I (6-3), another adjusting threaded rod (6-14) is fixedly installed on the adjusting chain wheel II (6-6), the two adjusting threaded rods (6-14) are both rotatably installed in a groove formed in the adjusting sliding plate (6-2), the adjusting chain wheel I (6-3) is in threaded connection with an adjusting chain (6-4), the adjusting chain (6-4) is in threaded connection with the adjusting chain wheel II (6-6), the adjusting chain wheel II (6-6) is fixedly installed at the output end of an adjusting motor (6-5), the adjusting motor (6-5) is fixedly installed on the adjusting sliding plate (6-2), a balance clamping plate (6-15) is fixedly installed on the adjusting sliding plate (6-2), and the balance clamping plate (6-15) is slidably installed in a groove formed in the adjusting plate (6-7), the adjusting plate (6-7) is in threaded connection with the adjusting threaded rod (6-14), the adjusting plate (6-7) is hinged with one end of the grinding plate (6-8), the other end of the grinding plate (6-8) is slidably arranged in a circular groove (3-10-1) arranged on the sliding sealing plate (3-10), a grinding motor (6-13) is fixedly arranged in a groove arranged on the circular rotating piece (6-1), the output end of the grinding motor (6-13) is fixedly provided with a transmission gear (6-12), the transmission gear (6-12) is meshed with a transmission gear ring (6-11), the transmission gear ring (6-11) is fixedly arranged on the camshaft (6-10), two ends of the camshaft (6-10) are respectively and fixedly provided with an extrusion cam (6-9), the extrusion cam (6-9) is contacted with the crushing plate (6-8), and the transmission gear ring (6-11) is rotatably arranged in a groove arranged on the circular rotating piece (6-1).

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